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Updated some Bridge examples
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@ -1,25 +1,61 @@
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/*
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Running process using Process class.
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This sketch demonstrate how to run linux processes
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using an Arduino Yún.
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created 5 Jun 2013
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by Cristian Maglie
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*/
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#include <Process.h>
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void setup() {
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pinMode(13,OUTPUT);
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digitalWrite(13,LOW);
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Serial.begin(9600);
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// Setup Bridge (needed every time we communicate with the Arduino Yún)
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Bridge.begin();
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// Setup Console
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Console.begin();
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Console.buffer(64);
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// Wait until a Network Monitor is connected.
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while (!Console);
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digitalWrite(13,HIGH);
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delay(2000);
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// run various example processes
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runCurl();
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runCpuInfo();
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}
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void loop() {
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// Do nothing here.
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}
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void runCurl() {
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// Launch "curl" command and get Arduino asciilogo from the network
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Process p;
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p.begin("curl");
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p.addParameter("http://arduino.cc/asciilogo.txt");
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p.run();
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// Print arduino logo over the console
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while (p.available()>0) {
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char c = p.read();
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Serial.print(c);
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Console.print(c);
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}
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Console.flush();
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}
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void loop() {
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void runCpuInfo() {
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// Launch "cat /proc/cpuinfo" command (shows info on Atheros CPU)
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Process p;
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p.begin("cat");
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p.addParameter("/proc/cpuinfo");
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p.run();
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// Print command output on the Console
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while (p.available()>0) {
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char c = p.read();
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Console.print(c);
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}
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Console.flush();
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}
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@ -38,7 +38,7 @@ void setup() {
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while(!Console); // wait for Network Console to open
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Console.println("Xively client");
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// Do a first update immediatly
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// Do a first update immediately
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updateData();
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sendData();
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lastRequest = millis();
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@ -80,7 +80,7 @@ void sendData() {
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// Send the HTTP PUT request
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// Is better to declare the Process here, so when the
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// sendData function finishes the resources are immediatly
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// sendData function finishes the resources are immediately
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// released. Declaring it global works too, BTW.
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Process xively;
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Console.print("\n\nSending data... ");
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@ -1,9 +1,8 @@
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/*
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Arduino Yun USB-to-Serial
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Allows you to use the Yun's 32U4 processor as a
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serial terminal for the linino processor
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serial terminal for the linino processor.
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Upload this to an Arduino Yun via serial (not WiFi)
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then open the serial monitor at 115200 to see the boot process
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@ -11,28 +10,31 @@
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as a basic command line interface for the linino processor using
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this sketch.
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From the serial monitor the following commands can be issued:
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'~' followed by '0' -> Set the UART speed to 57600 baud
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'~' followed by '1' -> Set the UART speed to 115200 baud
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The circuit:
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* Arduino Yun
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created March 2013
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by Massimo Banzi
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modified by Cristian Maglie
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This example code is in the public domain.
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*/
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long baud = 115200;
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long lininoBaud = 57600;
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// Pin 13 has an LED connected on most Arduino boards.
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// give it a name:
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int led = 13;
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int ledState = HIGH; // whether the LED is high or low
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void setup() {
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Serial.begin(baud); // open serial connection to Linino
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Serial1.begin(baud); // open serial connection via USB-Serial
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Serial.println("Prova"); // Hello USB
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Serial1.println("Prova1"); // Hello Linino
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Serial.begin(115200); // open serial connection via USB-Serial
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Serial1.begin(lininoBaud); // open serial connection to Linino
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// initialize the digital pin as an output.
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pinMode(led, OUTPUT);
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@ -40,12 +42,31 @@ void setup() {
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}
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void loop() {
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boolean commandMode = false;
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void loop() {
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// copy from virtual serial line to uart and vice versa
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if (Serial.available()) { // got anything from USB-Serial?
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char c = (char)Serial.read(); // read from USB-serial
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Serial1.write(c); // write to Linino
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if (commandMode == false) { // if we aren't in command mode...
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if (c == '~') { // Tilde '~' key pressed?
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commandMode = true; // enter in command mode
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} else {
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Serial1.write(c); // otherwise write char to Linino
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}
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} else { // if we are in command mode...
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if (c == '0') { // '0' key pressed?
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Serial1.begin(57600); // set speed to 57600
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Serial.println("Speed set to 57600");
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} else if (c == '1') { // '1' key pressed?
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Serial1.begin(115200); // set speed to 115200
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Serial.println("Speed set to 115200");
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} else { // any other key pressed?
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Serial1.write('~'); // write '~' to Linino
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Serial1.write(c); // write char to Linino
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}
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commandMode = false; // in all cases exit from command mode
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}
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ledState=!ledState; // invert LED state
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digitalWrite(led, ledState); // toggle the LED
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}
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